Department of Infectious Diseases, The First Affiliated Hospital of University of South China, Hengyang, 421001, Hunan, China.
Department of Pathology, The Second Affiliated Hospital of University of South China, Hengyang, 421001, China.
Dig Dis Sci. 2021 Jun;66(6):1928-1939. doi: 10.1007/s10620-020-06460-7. Epub 2020 Jul 9.
The hyper-accumulation of extracellular matrix (ECM) is the leading cause of hepatic fibrosis, and TGF-β-induced activation of hepatic stellate cells (HSCs) is the central event of hepatic fibrosis pathogenesis. The deregulation and dysfunction of miRNAs in hepatic fibrosis have been reported previously.
To identify miRNA(s) playing a role in HSC activation and the underlying mechanism.
We analyzed online microarray expression datasets from Gene Expression Omnibus (GEO) for differentially expressed miRNAs in hepatic fibrosis-related disease liver tissues, examined the specific effects of the candidate miRNA on TGF-β-induced HSC activation, and screened for the targets of the candidate miRNA in the TGF-β/SMAD signaling. Then, the predicted miRNA-mRNA binding, the specific effects of the target mRNA, and the dynamic effects of miRNA and mRNA on TGF-β-induced HSC activation were investigated.
The miR-503 expression was upregulated in TGF-β-activated HSCs. miR-503 overexpression enhanced, while miR-503 inhibition attenuated TGF-β-induced HSC proliferation and ECM accumulation in HSCs. miR-503 targeted SMAD7 to inhibit SMAD7 expression. SMAD7 knockdown also aggravated TGF-β-induced HSC proliferation and ECM accumulation in HSCs. The effects of miR-503 overexpression on TGF-β-induced HSC activation were partially reversed by SMAD7 overexpression. In CCl-induced hepatic fibrosis model in rats, miR-503 overexpression aggravated, whereas SMAD7 overexpression improved CCl-induced fibrotic changes in rats' liver tissues. The effects of miR-503 overexpression on CCl-induced fibrotic changes were partially reversed by SMAD7 overexpression.
miR-503 acts on HSC activation and hepatic fibrosis through SMAD7. The miR-503/SMAD7 axis enhances HSC activation and hepatic fibrosis through the TGF-β/SMAD pathway.
细胞外基质(ECM)的过度积累是肝纤维化的主要原因,而 TGF-β诱导的肝星状细胞(HSCs)激活是肝纤维化发病机制的中心事件。以前已经报道了 miRNA 在肝纤维化中的失调和功能障碍。
鉴定在 HSC 激活中起作用的 miRNA 及其潜在机制。
我们分析了来自基因表达综合数据库(GEO)的与肝纤维化相关疾病肝组织中差异表达 miRNA 的在线微阵列表达数据集,研究了候选 miRNA 对 TGF-β诱导的 HSC 激活的具体影响,并筛选候选 miRNA 在 TGF-β/SMAD 信号通路中的靶标。然后,研究了 miRNA-mRNA 结合的预测、靶 mRNA 的特定作用以及 miRNA 和 mRNA 对 TGF-β诱导的 HSC 激活的动态影响。
miR-503 在 TGF-β 激活的 HSCs 中表达上调。miR-503 过表达增强,而 miR-503 抑制减弱 TGF-β诱导的 HSCs 增殖和 ECM 积累。miR-503 靶向 SMAD7 抑制 SMAD7 表达。SMAD7 敲低也加重了 TGF-β诱导的 HSCs 增殖和 ECM 积累。miR-503 过表达对 TGF-β 诱导的 HSC 激活的影响部分被 SMAD7 过表达逆转。在 CCl4 诱导的大鼠肝纤维化模型中,miR-503 过表达加重,而 SMAD7 过表达改善了大鼠肝组织中 CCl4 诱导的纤维化变化。miR-503 过表达对 CCl4 诱导的纤维化变化的影响部分被 SMAD7 过表达逆转。
miR-503 通过 SMAD7 作用于 HSC 激活和肝纤维化。miR-503/SMAD7 轴通过 TGF-β/SMAD 通路增强 HSC 激活和肝纤维化。
